DE102009050554A1 - Measuring device e.g. pressure sensor, for measuring operating parameter of e.g. washing liquid in wash tub of washing machine, has shield arranged at housing such that magnetic cooperation of receiver and transmitter is uninfluenced - Google Patents

Abstract

The device (1) has a membrane (4) arranged at a housing (3), and a signal transmitter (5) i.e. permanent magnet, in effective connection with the membrane. A signal receiver (6) i.e. hall sensor, cooperates magnetically with the signal transmitter. An outside magnetic field shield is arranged at the housing such that the magnetic cooperation of the signal receiver and the signal transmitter is uninfluenced by outside magnetic fields. The membrane and/or the signal transmitter is resettable by an elastic element (9) i.e. leaf spring. The shield is made of a soft-magnetic material such as Mu-metal(RTM: nickel-iron alloy), iron, iron silicon, carbonyl iron and ferrite.

Description

The The invention relates to a measuring device according to the preamble of claim 1 or 2.

at the measuring device it can be a sensor, such as an inductive sensor, a pressure sensor, a displacement sensor o. The like., Act. Such measuring devices are used primarily for direct measurement of operating parameters in a fluid. For example These may be operating parameters in water-bearing Sharing household appliances, like Washing machines or dishwashers, act.

It are measuring devices for measuring a measured variable of a Fluids with a housing and with one in and / or on the housing arranged membrane known. A signal generator stands with the membrane in active connection. With the signal generator acts a signal sensor for generating the measuring signal magnetically together. It turned out that such magnetically or inductively operating measuring devices, in particular based on Hall elements and magnets in the Kind of a way voltage converter work, have the disadvantage that she by external magnetic fields affected which, in turn, their accuracy of measurement impaired. Furthermore can delays and / or hysteresis effects during the adjustment of the membrane, in particular their provision, occur, which also affects the accuracy of measurement leads. Such undesirable reset effects can even with a non-magnetic signal generator and signal sensor occur.

Of the Invention is based on the task of designing the measuring device in such a way that this before impairment by external magnetic fields and / or Restoring effects the membrane largely protected is.

These The object is in a generic measuring device by the characterizing features of claim 1 or 2 solved.

at the measuring device according to the invention in and / or on the housing a shield for external magnetic fields arranged. This leaves the magnetic interaction of Signalaufnehmer and signal generator essentially unaffected by external magnetic fields. The invention thus creates, for example, a pressure sensor with soft magnetic Shielding.

at the measuring device according to the invention accordingly another embodiment is the membrane and / or the signal generator by means of a type a leaf spring elastic element resettable. This will reset the Membrane essentially caused by the elastic element, which possibly caused by the membrane deleterious effects without effect stay.

Further Embodiments of the invention are the subject of the dependent claims.

In a simple and inexpensive Embodiment, the signal generator consists of a permanent magnet and the signal sensor from a cooperating with the permanent magnet Hall sensor. Conveniently, the permanent magnet is mounted in a magnetic adapter. The magnetic adapter in turn is in operative connection with the membrane, wherein in a easy to install design an approach to the membrane over a Slipped over edge of the magnet adapter.

to functionally reliable provision of the permanent magnet and / or the membrane acts the elastic Insert element on the magnet adapter. For the sake of compactness, the leaf-spring-like elastic element may be formed as a flat coil spring. In cheaper Way can be make the leaf spring as a stamped metal part. The production can continue simplify when the existing plastic magnetic adapter the leaf spring is fixed by hot caulking. To a good one To ensure sealing is the existing example of silicone membrane on the leaf spring slipped.

It lends itself to further, easy to install design that the case a housing body and a housing cover exists, with the housing cover on the housing body in essentially sealed can be locked. On the case, and Although preferably on the housing cover, can be a supply line for the fluid can be arranged to the membrane. This supply can further be arranged so that the Fluid over the supply line acts on the attachment to the membrane, which in turn directly cooperates with the magnetic adapter for adjusting the magnet. Such a configuration is characterized by a high reliability out.

A particularly good elimination of magnetic interference fields is achieved in that the shield consists of a soft magnetic metal. In a first embodiment, the shield clothes the interior of the housing, in which the signal sensor and the signal transmitter are located, largely completely. As a material for the shield, for example, Mu metal is suitable. In a second, somewhat less expensive variant can be dispensed with the additional lining by the housing of a plastic, at For example, a thermoplastic polymer, wherein the plastic is added a soft magnetic component. In order to enable the conventional production of the housing parts by injection molding, the soft magnetic component can be added to the plastic material in the form of powder and / or fibers. It has been found by experiments that good shielding effects are achieved when the degree of filling of the soft magnetic component is greater than 20% of the plastic content. The material for the soft magnetic component may be, for example, iron (Fe), iron-silicon (FeSi), carbonyl iron, ferrites, or the like.

In summary is for a preferred embodiment to determine the following. The shielding of the sensor against external, interfering magnetic fields is achieved here by the Polymer is a soft magnetic component, eg. FeSi, with a filling level from bigger than 20% in the form of powder or fibers is added. This can advantageously the previous injection molds for Production of the housing for the Sensor can be used.

The particular advantages of the invention are that the magnetic interference for the measuring device is greatly reduced. Furthermore can Restoring inaccuracies the membrane can be largely avoided. Advantageously This in turn achieves an increase in the measuring accuracy.

One embodiment the invention with various developments and refinements is shown in the drawings and will be described in more detail below. Show it

1 a pressure sensor in perspective view,

2 along the line 2-2 in 1 cut open pressure sensor in perspective view,

3 a planar section along the line 2-2 in 1 .

4 a pressure sensor located in the elastic element as a single part in perspective view and

5 a membrane located in the pressure sensor as a single part in perspective view.

In 1 is a measuring device 1 to be seen, which is a pressure sensor for the washing liquid in the washing tub of a washing machine as a fluid. To measure the pressure exerted by the fluid, this is via a supply line 2 to the pressure sensor 1 fed.

As in further 3 can be seen, has the pressure sensor 1 a housing 3 , wherein in and / or on the housing 3 a membrane 4 is arranged. With the membrane 4 is a signal generator 5 , which may be a permanent magnet, in operative connection. In the case 3 is located with the signal generator 5 magnetically interacting signal pickup 6 , which is for example a Hall sensor. The signal receiver 6 on a circuit board 17 inside the case 16 of the housing 3 is arranged, generates a position of the signal generator 5 , which correspond to the deflection of the membrane 4 is taken due to the pressure prevailing in the washing liquid, corresponding signal from which in turn the pressure prevailing in the washing liquid pressure can be determined. For this purpose, a not further shown evaluation, such as a microprocessor, on the circuit board 17 be located. The determined pressure and / or that of the signal receiver 6 generated signal is then at a plug-in output 19 on the housing 3 available, where there is a plug 18 for forwarding the signals to the circuit board 17 is infectious. In and / or on the case 3 is a shield 7 for external magnetic fields, which is explained in more detail below, arranged such that the magnetic interaction of Signalaufnehmer 6 and signalers 5 is substantially unaffected by the ruling in the washing machine outer magnetic fields.

The permanent magnet 5 is in a magnetic adapter 8th attached so that the on the membrane 4 acting pressure of the washing liquid at the same time the magnetic adapter 8th together with the magnet 5 emotional. For resetting the permanent magnet 5 and / or the membrane 4 acts an elastic element 9 on the magnetic adapter 8th one. This in 4 as an item shown elastic element 9 to which the magnet adapter 8th is arranged leaf spring-like formed as a flat coil spring. Thus, the leaf spring can be 9 cost-effective as a stamped metal part, such as copper beryllium, a spring steel o. The like. Produce by in the disc-shaped round metal part corresponding spirally extending recesses 20 be introduced. In addition, such a coil spring 9 very compact, which in turn the compactness of the pressure sensor 1 benefits. The magnetic adapter 8th is made of plastic and is on the leaf spring 9 attached, as determined by the 2 can be seen. The attachment of the magnet adapter 8th on the leaf spring 9 can be done by heat staking the plastic.

As already mentioned, is the magnetic adapter 8th with the membrane 4 in active connection. Therefor has the membrane 4 an approach 10 on, taking this approach 10 on the membrane 4 over a border 12 of the magnet adapter 8th according to the 2 or the 3 slipped over. The membrane 4 , in the 5 can be seen closer, consists of an elastic material, such as silicone or a thermoplastic elastomer. Furthermore, the membrane is also 4 on the leaf spring 9 put on how to get the 2 or the 3 extracts. This seals the membrane 4 the interior of the housing 16 of the pressure sensor 1 against the washing liquid. The on the case 3 located supply line 2 allows the washing liquid to the membrane 4 arrives. There, the washing liquid acts on the approach 10 on the membrane 4 a, in a deepened, in 5 visible print area 11 at the beginning 10 ,

According to 3 is the housing 3 from a housing body 13 and a housing cover 14 , The one in the area of the membrane 4 arranged housing cover 14 is on the housing body 13 attached, on the housing body 13 by snap connections 15 locked in a substantially sealed manner. The supply line 2 is integral to the housing cover 14 arranged. The shield may in a first embodiment, which is not shown further, made of a soft magnetic metal, such as Mu-metal and the housing interior 16 in which the signal receiver 6 as well as the signal generator 5 are located, undress. More preferably, because of the simpler and cheaper production, a second embodiment for the shield 7 , from 3 closer. This is the case 3 , made of a plastic, for example of a thermoplastic polymer, wherein the plastic is a soft magnetic component as a shield 7 is added. Because the entire case 3 So both the case body 13 as well as the housing cover 14 made of plastic with a soft magnetic component 7 , in the 3 dashed lines exist, is the housing interior 16 largely shielded against the action of external magnetic fields.

The soft magnetic component 7 may be added to the plastic material in the form of powder and / or fibers. This allows the plastic material with soft magnetic component 7 like a conventional thermoplastic process by injection molding, bringing the housing body 13 as well as the housing cover 14 can be produced in a conventional manner. As found by appropriate experiments, one obtains a very good magnetic shielding effect when the degree of filling of the soft magnetic component 7 at least 20% of the plastic content. For the soft magnetic component 7 it may be iron (Fe), iron-silicon (FeSi), carbonyl-iron, ferrites or the like.

The invention is not limited to the described and illustrated embodiments. Rather, it also encompasses all expert developments within the scope of the invention defined by the claims. So can such a pressure sensor 1 also find other home appliances, such as a dishwasher, use. Moreover, such a pressure sensor 1 Not only for home appliances but also in other applications, for example, for pressure and / or level measurement are used as measured variables of a fluid in the laboratory and in chemical engineering. Finally, the measuring device according to the invention can also serve as a displacement sensor or the like.

1

Measuring / pressure sensor

2

supply

3

casing

4

membrane

5

Auto Switches / permanent magnet / magnet

6

signal sensor

7

Shielding / soft magnetic component

8th

magnetic adapter

9

elastic Element / leaf spring / coil spring

10

approach (to membrane)

11

Printing surface (on Approach)

12

edge (from magnetic adapter)

13

housing body

14

housing cover

15

snap

16

housing interior

17

circuit board

18

plug

19

plug output

20

recess (in leaf spring)

Claims (9)

Measuring device for measuring a measured variable of a fluid, in particular a sensor, such as a pressure sensor, a displacement sensor or the like, with a housing ( 3 ), and with one in and / or on the housing ( 3 ) arranged membrane ( 4 ), whereby a signal generator ( 5 ) with the membrane ( 4 ) is in operative connection, and wherein a signal sensor ( 6 ) with the signal transmitter ( 5 ) interacts magnetically, characterized in that in and / or on the housing ( 3 ) a shield ( 7 ) is arranged for external magnetic fields, such that the magnetic interaction of signal sensor ( 6 ) and signal generator ( 5 ) is substantially unaffected by external magnetic fields. Measuring device for measuring a measured variable of a fluid, in particular a sensor, such as a pressure sensor, a displacement sensor or the like, with a housing ( 3 ), and with one in and / or on the housing ( 3 ) arranged membrane ( 4 ), whereby a signal generator ( 5 ) with the meme bran ( 4 ) is in operative connection, and wherein a signal sensor ( 6 ) with the signal transmitter ( 5 ), in particular magnetic, cooperates, characterized in that the membrane ( 4 ) and / or the signal generator ( 5 ) by means of an elastic element designed in the manner of a leaf spring ( 9 ) is recoverable. Measuring device according to claim 1 or 2, characterized in that the signal transmitter ( 5 ) consists of a permanent magnet, that preferably the permanent magnet ( 5 ) in a magnetic adapter ( 8th ), that further preferably the magnetic adapter ( 8th ) with the membrane ( 4 ) is, for example, an approach ( 10 ) on the membrane ( 4 ) over a border ( 12 ) of the magnetic adapter ( 8th ), and that even more preferably the signal sensor ( 6 ) from one with the permanent magnet ( 5 ) cooperating Hall sensor. Measuring device according to claim 1, 2 or 3, characterized in that the elastic element ( 9 ) on the magnetic adapter ( 8th ) for resetting the permanent magnet ( 5 ) and / or the membrane ( 4 ) acts, that preferably the leaf spring-like elastic element ( 9 ) is formed as a flat spiral spring, that further preferably the leaf spring ( 9 ) is produced as a stamped part made of metal, that still further preferably consists of plastic magnetic adapter ( 8th ) on the leaf spring ( 9 ), for example, by heat stiffening, and that even more preferably, for example, made of silicone membrane ( 4 ) on the leaf spring ( 9 ) is slipped. Measuring device according to one of claims 1 to 4, characterized in that on the housing ( 3 ) a supply line ( 2 ) for the fluid to the membrane ( 4 ) is arranged, that preferably the fluid via the supply line ( 2 ) on the approach ( 10 ) on the membrane ( 4 ), that further preferably the housing ( 3 ) from a housing body ( 13 ) and a housing cover ( 14 ) that even more preferably the housing cover ( 14 ) on the housing body ( 13 ) is locked in a substantially sealed manner, and that further preferably the supply line ( 2 ) on the housing cover ( 14 ) is arranged. Measuring device according to one of claims 1 to 5, characterized in that the shield ( 7 ) consists of a soft magnetic metal, in particular mu-metal, and that preferably the shield ( 7 ) the housing interior ( 16 ), in which the signal sensor ( 6 ) as well as the signal generator ( 5 ) are lined. Measuring device according to one of claims 1 to 6, characterized in that the housing ( 3 ) consists of a plastic, in particular of a thermoplastic polymer, and that preferably the plastic is a soft magnetic component ( 7 ) is added. Measuring device according to one of claims 1 to 7, characterized in that the soft magnetic component ( 7 ) is added to the plastic material in the form of powder and / or fibers, and that preferably the degree of filling of the soft magnetic component ( 7 ) is greater than 20% of the plastic content. Measuring device according to one of claims 1 to 8, characterized in that it is in the soft magnetic component ( 7 ) is iron (Fe), iron-silicon (FeSi), carbonyl iron, ferrites or the like.